Method and System for Packet Switch Based Logic Replication

1. A method for logic design testing, the method comprising: generating packets by a processor to carry signal data from a plurality of portions of source logic for a destination logic cloning the source logic, the packets including identifiers identifying virtual channels mapping the plurality of portions of the source logic to a plurality of portions of the destination logic; storing the packets into a queue of the signal data for a period, the queue implemented in a cache; distributing the packets from the queue to the portions of the destination logic according to the virtual channels identified; and unpacking the signal data from the packets to update the portions of the destination logic for the destination logic to emulate the source logic with a delay for the period.

2. The method of claim 1 , wherein the source logic is driven by a plurality of clock domains and wherein each portion belongs to one of the domains.

3. The method of claim 1 , wherein the queue is in a switching logic coupled with the source logic via one or more interfaces, wherein the plurality of portions of source logic are associated with a plurality of source channel queues, and wherein storing the packets comprises: temporarily storing each packet in one of the plurality of source channel queues; and sending packets from at least one of the source channel queues to the switching logic via one of the interfaces.

4. The method of claim 3 , wherein the source logic is partitioned into one or more devices, and wherein each device includes one of the interfaces.

5. The method of claim 3 , further comprising: arbitrating the packets from the at least one of the source channel queues into a sequence for sharing the one of the interfaces synchronized with the source logic.

6. The method of claim 5 , wherein the switching logic is driven by a switching clock domain, the method further comprising: synchronizing with the switching clock domain for the sending of the packets via the interfaces.

7. The method of claim 3 , wherein the switching logic includes one or more receiver queues corresponding to the one or more interfaces to allow the packets to arrive concurrently among the interfaces, further comprising: arbitrating the packets from the receiver queues in sequence into the queue synchronized with the source logic.

8. The method of claim 1 , wherein the switching logic includes a storage storing a plurality of channel definitions for the virtual channels indexed by the identifiers, wherein the distribution comprises: retrieving the packets from the queue in sequence; decoding the identifiers from the packets retrieved for the channel definitions.

9. The method of claim 8 , wherein the plurality of channel definitions include destination identifiers for the plurality of portions of the destination logic, the method further comprising: updating the packets with the destination identifiers in place of the identifiers.

10. The method of claim 8 , wherein the plurality of channel definitions identify one or more sender queues separately coupled to the destination logic, the method further comprising: temporarily storing each packet in one of the sender queues; and sending the packets from the sender queues in parallel to the destination logic synchronized with the source logic.

11. The method of claim 10 , wherein the destination logic is partitioned into one or more devices, and wherein each device is associated with one of the sender queues.

12. The method of claim 10 , wherein the destination logic includes a plurality of destination channel queues corresponding to the plurality of portions of destination logic, the method further comprising: temporarily storing the packets to the sender queues according to the destination identifiers; and retrieving the packets from the sender queues, wherein the unpacking is based on the packets retrieved from the sender queues synchronized with the source logic.

13. The method of claim 8 , wherein a particular one of the channel definitions is indexed according to a particular one of the packets, wherein the particular channel definition includes an interface address to the destination logic, the method further comprising: sending the particular packet directly to the destination logic via the interface address if the particular channel definition indicates a direct connection.

14. An article of manufacture comprising a non-transitory machine accessible storage medium including content that when accessed by a machine causes the machine to perform operations including: generating packets to carry signal data from a plurality of portions of source logic for a destination logic cloning the source logic, the packets including identifiers identifying virtual channels mapping the plurality of portions of the source logic to a plurality of portions of the destination logic; storing the packets into a queue of the signal data for a period; distributing the packets from the queue to the portions of the destination logic according to the virtual channels identified; and unpacking the signal data from the packets to update the portions of the destination logic for the destination logic to emulate the source logic with a delay for the period.

15. The article of manufacture of claim 14 , wherein the source logic is driven by a plurality of clock domains and wherein each portion belongs to one of the domains.

16. The article of manufacture of claim 14 , wherein the queue is in a switching logic coupled with the source logic via one or more interfaces, wherein the plurality of portions of source logic are associated with a plurality of source channel queues, and wherein storing the packets comprises: temporarily storing each packet in one of the plurality of source channel queues; and sending packets from at least one of the source channel queues to the switching logic via one of the interfaces.

17. The article of manufacture of claim 16 , wherein the source logic is partitioned into one or more devices, and wherein each device includes one of the interfaces.

18. The article of manufacture of claim 16 , further comprising: arbitrating the packets from the at least one of the source channel queues into a sequence for sharing the one of the interfaces synchronized with the source logic.

19. The article of manufacture of claim 18 , wherein the switching logic is driven by a switching clock domain, further comprising: synchronizing with the switching clock domain for the sending of the packets via the interfaces.

20. The article of manufacture of claim 16 , wherein the switching logic includes one or more receiver queues corresponding to the one or more interfaces to allow the packets to arrive concurrently among the interfaces, further comprising: arbitrating the packets from the receiver queues in sequence into the queue synchronized with the source logic.

21. The article of manufacture of claim 14 , wherein the switching logic includes a storage storing a plurality of channel definitions for the virtual channels indexed by the identifiers, wherein the distribution comprises: retrieving the packets from the queue in sequence; decoding the identifiers from the packets retrieved for the channel definitions.

22. The article of manufacture of claim 21 , wherein the plurality of channel definitions include destination identifiers for the plurality of portions of the destination logic, further comprising: updating the packets with the destination identifiers in place of the identifiers.

23. The article of manufacture of claim 21 , wherein the plurality of channel definitions identify one or more sender queues separately coupled to the destination logic, further comprising: temporarily storing each packet in one of the sender queues; and sending the packets from the sender queues in parallel to the destination logic synchronized with the source logic.

24. The article of manufacture of claim 23 , wherein the destination logic is partitioned into one or more devices, and wherein each device is associated with one of the sender queues.

25. The article of manufacture of claim 23 , wherein the destination logic includes a plurality of destination channel queues corresponding to the plurality of portions of destination logic, further comprising: temporarily storing the packets to the sender queues according to the destination identifiers; and retrieving the packets from the sender queues, wherein the unpacking is based on the packets retrieved from the sender queues synchronized with the source logic.

26. The article of manufacture of claim 21 , wherein a particular one of the channel definitions is indexed according to a particular one of the packets, wherein the particular channel definition includes an interface address to the destination logic, further comprising: sending the particular packet directly to the destination logic via the interface address if the particular channel definition indicates a direct connection.

27. A logic design testing comprising: packets to carry signal data from a plurality of portions of source logic for a destination logic cloning the source logic, the packets including identifiers identifying virtual channels mapping the plurality of portions of the source logic to a plurality of portions of the destination logic; a queue of the signal data to store the packets for a period; the portions of the destination logic receiving the distributed packets from the queue to according to the virtual channels identified; and the signal data from the packets unpacked to update the portions of the destination logic for the destination logic to emulate the source logic with a delay for the period.